Electromechanical Energy Conversion

coursetab

c_weekno Title Body
1 Introduction Electromagnetic Theory : Basic Laws and Definitions
10 Lumped-Parameter Electromechanics : Equations of Motion Rotating Machines : Introduction
11 Smooth-Air-Gap Machines : Differential Equations Smooth-Air-Gap Machines : Conditions for Conversion of Average Power
12 Smooth-Air-Gap Machines : Two-Phase Machine, Air-Gap Magnetic Fields Smooth-Air-Gap Machines : Classification of Machine Types
13 Smooth-Air-Gap Machines : Polyphase Machines Smooth-Air-Gap Machines : Number of Poles in a Machine
14 Salient-Pole Machines : Diffrential Equations Salient-Pole Machines : Conditions for Conversion of Average Power
15 Salient-Pole Machines : Discussion of Saliency in Diffrent Machine Types Salient-Pole Machines : Polyphase, Salient-Pole, Synchronous Machines
16 Final Examination
2 Electromagnetic Theory : Maxwell\'s Equations Electromagnetic Theory : quasi-static Electromagnetic Field Equation
3 Electromagnetic Theory : Magnetization, Polarization, Electrical Conduction Electromagnetic Theory : Integral Laws
4 The Harvest Festival The Harvest Festival
5 Lumped Electromechanical Elements : Introduction The National Foundation Day
6 Circuit Theory : Generalized Inductance, Generalized Capacitance Mechanics : Mechanical Elements
7 Mechanics : Mechanical Equations of Motion Midterm Examination
8 Lumped-Parameter Electromechanics : Introduction Lumped-Parameter Electromechanics : Electromechanical Coupling
9 Lumped-Parameter Electromechanics : Mechanical Forces of Electric Origin Lumped-Parameter Electromechanics : Energy Conversion